Mertsching Elisabeth, Bafetti Lisa, Hess Henry, Perper Stuart, Giza Keith, Allen Lisa Chan, Negrou Ella, Hathaway Karen, Hopp Jennifer, Chung Julie, Perret Daniel, Shields Michael, Saxon Andrew, Kehry Marilyn R
Biogen Idec, 5200 Research Place, San Diego, CA 92130, USA.
J Allergy Clin Immunol. 2008 Feb;121(2):441-447.e5. doi: 10.1016/j.jaci.2007.08.051. Epub 2007 Oct 18.
A human Fcgamma-Fcepsilon fusion protein (GE2) designed to inhibit FcepsilonRI signaling by coaggregating FcepsilonRI with the inhibitory receptor FcgammaRIIB has been shown to inhibit mast cell activation and block cutaneous anaphylaxis. A critical issue remained as to whether the mechanism of GE2 inhibition is competition for IgE binding or inhibitory signaling through FcgammaRIIB.
Our aim was to define the in vitro and in vivo mechanism of action of a mouse homolog of GE2 (mGE) and to assess the potential of human GE2 (hGE2) for therapeutic administration.
The in vitro activity of mGE on mediator release and signaling pathways was characterized in IgE-sensitized bone marrow-derived mast cells (BMMCs). The in vivo activity of mGE was examined in mouse passive cutaneous and passive systemic anaphylaxis models, and the therapeutic activity of hGE2 was evaluated in Ascaris suum-sensitized cynomolgus monkeys.
mGE inhibited release of histamine and cytokines by BMMCs from wild-type mice but not by BMMCs from FcgammaRIIB-deficient mice. In mice mGE blocked IgE-dependent anaphylaxis mediated by mast cells with sustained efficacy. In BMMCs mGE decreased spleen tyrosine kinase and extracellular signal-regulated kinases 1/2 phosphorylation and induced FcgammaRIIB phosphorylation and the subsequent recruitment of SH2 domain-containing inositol polyphosphate 5' phosphatase (SHIP) 1 and SH2 domain-containing protein tyrosine phosphatase (SHP) 1/2 phosphatases. When administered therapeutically, hGE2 protected sensitized monkeys from local anaphylaxis for 3 weeks.
mGE-mediated inhibition of mast cell activation is associated with inhibitory signaling through FcgammaRIIB that results from activation of SHIP-1 and SHP-1/2 phosphatases.
一种人源Fcγ-Fcε融合蛋白(GE2),其设计目的是通过使FcεRI与抑制性受体FcγRIIB共同聚集来抑制FcεRI信号传导,已被证明可抑制肥大细胞活化并阻断皮肤过敏反应。关于GE2抑制机制是竞争IgE结合还是通过FcγRIIB进行抑制性信号传导,仍是一个关键问题。
我们的目的是确定GE2小鼠同源物(mGE)的体外和体内作用机制,并评估人源GE2(hGE2)的治疗给药潜力。
在IgE致敏的骨髓来源肥大细胞(BMMC)中,对mGE在介质释放和信号通路方面的体外活性进行了表征。在小鼠被动皮肤和被动全身过敏反应模型中检测了mGE的体内活性,并在猪蛔虫致敏的食蟹猴中评估了hGE2的治疗活性。
mGE可抑制野生型小鼠BMMC释放组胺和细胞因子,但不能抑制FcγRIIB缺陷型小鼠的BMMC释放。在小鼠中,mGE可有效阻断肥大细胞介导的IgE依赖性过敏反应。在BMMC中,mGE可降低脾酪氨酸激酶和细胞外信号调节激酶1/2的磷酸化水平,并诱导FcγRIIB磷酸化以及随后含SH2结构域的肌醇多磷酸5'磷酸酶(SHIP)1和含SH2结构域的蛋白酪氨酸磷酸酶(SHP)1/2磷酸酶的募集。当进行治疗给药时,hGE2可使致敏猴免受局部过敏反应影响达3周。
mGE介导的肥大细胞活化抑制与通过FcγRIIB的抑制性信号传导有关,这是由SHIP-1和SHP-1/2磷酸酶的活化导致的。
